Changyol Lee scite author profile

We show that an ab initio molecular-dynamics scheme based on Vanderbilt ultrasoft pseudopotentials and a plane-wave expansion for the electronic orbitals allows one to perform accurate calculations for large systems containing tightly bound d-electron states. We use a novel real-space double-grid technique to deal efficiently with the localized augmentation functions in the core region. We apply our scheme in a full molecular-dynamics simulation of liquid copper at a temperature of 1500 K and find structural and dynamical properties that are in excellent agreement with experimental data.

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Changyol Lee

Dynamical matrices, Born effective charges, dielectric permittivity tensors, and interatomic force constants from density-functional perturbation theory

Car-Parrinello molecular dynamics with Vanderbilt ultrasoft pseudopotentials

Implementation of ultrasoft pseudopotentials inab initiomolecular dynamics

Ab initiomolecular dynamics ford-electron systems: Liquid copper at 1500 K

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